Mercurial > fife-parpg
view ext/guichan-0.8.1/src/allegro/allegroinput.cpp @ 199:4ea1e0b56a07
fixes based on the updated SDK from barra. These scripts were still trying to use swig 1.3.35 and in the new SDK swig was updated to 1.3.38
author | vtchill@33b003aa-7bff-0310-803a-e67f0ece8222 |
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date | Fri, 13 Mar 2009 01:58:04 +0000 |
parents | 4a0efb7baf70 |
children |
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/* _______ __ __ __ ______ __ __ _______ __ __ * / _____/\ / /\ / /\ / /\ / ____/\ / /\ / /\ / ___ /\ / |\/ /\ * / /\____\// / // / // / // /\___\// /_// / // /\_/ / // , |/ / / * / / /__ / / // / // / // / / / ___ / // ___ / // /| ' / / * / /_// /\ / /_// / // / // /_/_ / / // / // /\_/ / // / | / / * /______/ //______/ //_/ //_____/\ /_/ //_/ //_/ //_/ //_/ /|_/ / * \______\/ \______\/ \_\/ \_____\/ \_\/ \_\/ \_\/ \_\/ \_\/ \_\/ * * Copyright (c) 2004 - 2008 Olof Naessén and Per Larsson * * * Per Larsson a.k.a finalman * Olof Naessén a.k.a jansem/yakslem * * Visit: http://guichan.sourceforge.net * * License: (BSD) * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in * the documentation and/or other materials provided with the * distribution. * 3. Neither the name of Guichan nor the names of its contributors may * be used to endorse or promote products derived from this software * without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED * TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /* * For comments regarding functions please see the header file. */ #include "guichan/allegro/allegroinput.hpp" #include <allegro.h> #include "guichan/exception.hpp" namespace gcn { AllegroInput::AllegroInput() { mMouseButton1 = mMouseButton2 = mMouseButton3 = false; mLastMouseZ = 0; mLastMouseX = 0; mLastMouseY = 0; } bool AllegroInput::isKeyQueueEmpty() { return mKeyQueue.empty(); } KeyInput AllegroInput::dequeueKeyInput() { if (isKeyQueueEmpty()) { throw GCN_EXCEPTION("Key queue is empty."); } KeyInput ki = mKeyQueue.front(); mKeyQueue.pop(); return ki; } bool AllegroInput::isMouseQueueEmpty() { return mMouseQueue.empty(); } MouseInput AllegroInput::dequeueMouseInput() { if (isMouseQueueEmpty()) { throw GCN_EXCEPTION("Mouse queue is empty."); } MouseInput mi = mMouseQueue.front(); mMouseQueue.pop(); return mi; } void AllegroInput::_pollInput() { pollMouseInput(); pollKeyInput(); } void AllegroInput::pollMouseInput() { if (mouse_needs_poll()) { poll_mouse(); } int mouseX = mouse_x; int mouseY = mouse_y; int mouseZ = mouse_z; int mouseB1 = mouse_b & 1; int mouseB2 = mouse_b & 2; int mouseB3 = mouse_b & 4; // Check mouse movement if (mouseX != mLastMouseX || mouseY != mLastMouseY) { mMouseQueue.push(MouseInput(MouseInput::EMPTY, MouseInput::MOVED, mouseX, mouseY, 0)); mLastMouseX = mouseX; mLastMouseY = mouseY; } // Check mouse Wheel while (mLastMouseZ < mouseZ) { mMouseQueue.push(MouseInput(MouseInput::EMPTY, MouseInput::WHEEL_MOVED_UP, mouseX, mouseY, 0)); mLastMouseZ++; } while (mLastMouseZ > mouseZ) { mMouseQueue.push(MouseInput(MouseInput::EMPTY, MouseInput::WHEEL_MOVED_DOWN, mouseX, mouseY, 0)); mLastMouseZ--; } // Check mouse buttons if (!mMouseButton1 && mouseB1) { mMouseQueue.push(MouseInput(MouseInput::LEFT, MouseInput::PRESSED, mouseX, mouseY, 0)); } if (mMouseButton1 && !mouseB1) { mMouseQueue.push(MouseInput(MouseInput::LEFT, MouseInput::RELEASED, mouseX, mouseY, 0)); } if (!mMouseButton2 && mouseB2) { mMouseQueue.push(MouseInput(MouseInput::RIGHT, MouseInput::PRESSED, mouseX, mouseY, 0)); } if (mMouseButton2 && !mouseB2) { mMouseQueue.push(MouseInput(MouseInput::RIGHT, MouseInput::RELEASED, mouseX, mouseY, 0)); } if (!mMouseButton3 && mouseB3) { mMouseQueue.push(MouseInput(MouseInput::MIDDLE, MouseInput::PRESSED, mouseX, mouseY, 0)); } if (mMouseButton3 && !mouseB3) { mMouseQueue.push(MouseInput(MouseInput::MIDDLE, MouseInput::RELEASED, mouseX, mouseY, 0)); } mMouseButton1 = mouseB1; mMouseButton2 = mouseB2; mMouseButton3 = mouseB3; } void AllegroInput::pollKeyInput() { int unicode, scancode; if (keyboard_needs_poll()) { poll_keyboard(); } while (keypressed()) { unicode = ureadkey(&scancode); Key keyObj = convertToKey(scancode, unicode); KeyInput keyInput(keyObj, KeyInput::PRESSED); keyInput.setNumericPad(isNumericPad(scancode)); keyInput.setShiftPressed(key_shifts & KB_SHIFT_FLAG); keyInput.setAltPressed(key_shifts & KB_ALT_FLAG); keyInput.setControlPressed(key_shifts & KB_CTRL_FLAG); #ifdef KB_COMMAND_FLAG keyInput.setMetaPressed(key_shifts & (KB_COMMAND_FLAG | KB_LWIN_FLAG | KB_RWIN_FLAG)); #else keyInput.setMetaPressed(key_shifts & (KB_LWIN_FLAG | KB_RWIN_FLAG)); #endif mKeyQueue.push(keyInput); mPressedKeys[scancode] = keyInput; } if (key[KEY_ALT] && mPressedKeys.find(KEY_ALT) == mPressedKeys.end()) { KeyInput keyInput(convertToKey(KEY_ALT, 0), KeyInput::PRESSED); mKeyQueue.push(keyInput); mPressedKeys[KEY_ALT] = keyInput; } if (key[KEY_ALTGR] && mPressedKeys.find(KEY_ALTGR) == mPressedKeys.end()) { KeyInput keyInput(convertToKey(KEY_ALTGR, 0), KeyInput::PRESSED); mKeyQueue.push(keyInput); mPressedKeys[KEY_ALTGR] = keyInput; } if (key[KEY_LSHIFT] && mPressedKeys.find(KEY_LSHIFT) == mPressedKeys.end()) { KeyInput keyInput(convertToKey(KEY_LSHIFT, 0), KeyInput::PRESSED); mKeyQueue.push(keyInput); mPressedKeys[KEY_LSHIFT] = keyInput; } if (key[KEY_RSHIFT] && mPressedKeys.find(KEY_RSHIFT) == mPressedKeys.end()) { KeyInput keyInput(convertToKey(KEY_RSHIFT, 0), KeyInput::PRESSED); mKeyQueue.push(keyInput); mPressedKeys[KEY_RSHIFT] = keyInput; } if (key[KEY_LCONTROL] && mPressedKeys.find(KEY_LCONTROL) == mPressedKeys.end()) { KeyInput keyInput(convertToKey(KEY_LCONTROL, 0), KeyInput::PRESSED); mKeyQueue.push(keyInput); mPressedKeys[KEY_LCONTROL] = keyInput; } if (key[KEY_RCONTROL] && mPressedKeys.find(KEY_RCONTROL) == mPressedKeys.end()) { KeyInput keyInput(convertToKey(KEY_RCONTROL, 0), KeyInput::PRESSED); mKeyQueue.push(keyInput); mPressedKeys[KEY_RCONTROL] = keyInput; } // Check for released keys std::map<int, KeyInput>::iterator iter, tempIter; for (iter = mPressedKeys.begin(); iter != mPressedKeys.end(); ) { if (!key[iter->first]) { KeyInput keyInput(iter->second.getKey(), KeyInput::RELEASED); keyInput.setNumericPad(iter->second.isNumericPad()); keyInput.setShiftPressed(iter->second.isShiftPressed()); keyInput.setAltPressed(iter->second.isAltPressed()); keyInput.setControlPressed(iter->second.isControlPressed()); mKeyQueue.push(keyInput); tempIter = iter; iter++; mPressedKeys.erase(tempIter); } else { iter++; } } } Key AllegroInput::convertToKey(int scancode, int unicode) { int keysym; bool pad = false; switch(scancode) { case KEY_ESC: keysym = Key::ESCAPE; break; case KEY_ALT: keysym = Key::LEFT_ALT; break; case KEY_ALTGR: keysym = Key::RIGHT_ALT; break; case KEY_LSHIFT: keysym = Key::LEFT_SHIFT; break; case KEY_RSHIFT: keysym = Key::RIGHT_SHIFT; break; case KEY_LCONTROL: keysym = Key::LEFT_CONTROL; break; case KEY_RCONTROL: keysym = Key::RIGHT_CONTROL; break; case KEY_LWIN: keysym = Key::LEFT_META; break; case KEY_RWIN: keysym = Key::RIGHT_META; break; case KEY_INSERT: keysym = Key::INSERT; break; case KEY_HOME: keysym = Key::HOME; break; case KEY_PGUP: keysym = Key::PAGE_UP; break; case KEY_PGDN: keysym = Key::PAGE_DOWN; break; case KEY_DEL: keysym = Key::DELETE; break; case KEY_DEL_PAD: keysym = Key::DELETE; pad = true; break; case KEY_END: keysym = Key::END; break; case KEY_CAPSLOCK: keysym = Key::CAPS_LOCK; break; case KEY_BACKSPACE: keysym = Key::BACKSPACE; break; case KEY_F1: keysym = Key::F1; break; case KEY_F2: keysym = Key::F2; break; case KEY_F3: keysym = Key::F3; break; case KEY_F4: keysym = Key::F4; break; case KEY_F5: keysym = Key::F5; break; case KEY_F6: keysym = Key::F6; break; case KEY_F7: keysym = Key::F7; break; case KEY_F8: keysym = Key::F8; break; case KEY_F9: keysym = Key::F9; break; case KEY_F10: keysym = Key::F10; break; case KEY_F11: keysym = Key::F11; break; case KEY_F12: keysym = Key::F12; break; case KEY_PRTSCR: keysym = Key::PRINT_SCREEN; break; case KEY_PAUSE: keysym = Key::PAUSE; break; case KEY_SCRLOCK: keysym = Key::SCROLL_LOCK; break; case KEY_NUMLOCK: keysym = Key::NUM_LOCK; break; case KEY_LEFT: keysym = Key::LEFT; break; case KEY_RIGHT: keysym = Key::RIGHT; break; case KEY_UP: keysym = Key::UP; break; case KEY_DOWN: keysym = Key::DOWN; break; case KEY_ENTER_PAD: pad = true; case KEY_ENTER: keysym = Key::ENTER; break; default: keysym = unicode; } Key k = Key(keysym); return k; //Now, THAT was fun to code! =D =D =D } bool AllegroInput::isNumericPad(int scancode) { switch (scancode) { case KEY_0_PAD: case KEY_1_PAD: case KEY_2_PAD: case KEY_3_PAD: case KEY_4_PAD: case KEY_5_PAD: case KEY_6_PAD: case KEY_7_PAD: case KEY_8_PAD: case KEY_9_PAD: case KEY_SLASH_PAD: case KEY_MINUS_PAD: case KEY_PLUS_PAD: return true; default: return false; } } }